Recycling of the polymer composite fillers in amino alcohol medium

The paper presents data from an experimental study of the possibility of recycling polymer composites on the example of fiberglass and different thermoset binders. The goal is to remove the polymer matrix and obtain recovered fiberglass that is not inferior in properties to the virgin material. In this paper, considered the solvolysis method of the composite in the amino alcohols. As the medium used methyldiethanolamine and 3-aminopropanol-1. The dependence of the influence of the solvolysis time and the concentration of alkali metal hydroxide in the reaction medium on the strength of recovered glass fibers has been established. The solvolysis at a temperature of 180 °C and a catalyst concentration of 5 % for 6 hours was accepted as optimal regime. As a result of the research, a regime was obtained that allows recovering fibers with a tensile strength of 92 % of virgin fibers. The recovered fabrics were studied by thermal analysis and scanning electron microscopy. GFRP samples were obtained from the recovered fabrics by the VaRTM method. The flexural strength of composites made from secondary filler is 8.5% lower than the same material based on virgin fabric. Products of the polymer matrix degradation and fibrous fillers are released during recycling. These products could be used in chemical technology to produce, for example, binders components and secondary fillers for polymer composites.

[1]  V. Petrov,et al.  Recycling of Fiberglass Fillers Obtained from Polymer Composites Based on an Epoxy Vinyl Ester Binder , 2022, Mechanics of Composite Materials.

[2]  R. Stewart,et al.  End-of-life policy considerations for wind turbine blades , 2022, Renewable and Sustainable Energy Reviews.

[3]  K. S. K. Reddy,et al.  Recycling Waste Polycarbonate to Bisphenol A-Based Oligoesters as Epoxy-Curing Agents, and Degrading Epoxy Thermosets and Carbon Fiber Composites into Useful Chemicals , 2022, ACS Sustainable Chemistry & Engineering.

[4]  M. Abu‐Omar,et al.  Preparation and Degradation of Waste Polycarbonate-Derived Epoxy Thermosets and Composites , 2021, ACS Applied Polymer Materials.

[5]  F. Manzano-Agugliaro,et al.  A Critical Review on Recycling Composite Waste Using Pyrolysis for Sustainable Development , 2021, Energies.

[6]  S. Schwarz,et al.  Pyrolytic Recycling of Carbon Fibers from Prepregs and Their Use in Polyamide Composites , 2020 .

[7]  A. E. Protsenko,et al.  Recycling of glass fibers sheets from thermoset reinforced plastic using thermolysis method , 2020, IOP Conference Series: Materials Science and Engineering.

[8]  S. Ozcan,et al.  Recycling of Commercial E-glass Reinforced Thermoset Composites via Two Temperature Step Pyrolysis to Improve Recovered Fiber Tensile Strength and Failure Strain , 2019, Recycling.

[9]  T. Sako,et al.  Recycling fiber-reinforced plastic using supercritical acetone , 2019, Polymer Degradation and Stability.

[10]  Qian Zhou,et al.  Highly efficient solvolysis of epoxy resin using poly(ethylene glycol)/NaOH systems , 2012 .

[11]  Oana Ghita,et al.  Successful closed-loop recycling of thermoset composites , 2009 .

[12]  Stephen Pickering,et al.  Chemical recycling of carbon fibre reinforced composites in nearcritical and supercritical water , 2008 .

[13]  Stephen Pickering,et al.  Recycling technologies for thermoset composite materials—current status , 2006 .

[14]  G. Durand,et al.  Chemical Recycling of Class A Surface Quality Sheet-Molding Composites , 2004 .